Display device, method for manufacturing same, polyimide film for display device supporting bases, and method for producing polyimide film for display device supporting bases

a technology for display devices and supporting bases, which is applied in the manufacture of final products, synthetic resin layered products, and record information storage. it is difficult to obtain an organic el device excellent in shape stability, and the stability of resins is generally inferior to glass

Active Publication Date: 2015-07-02
NIPPON STEEL CHEMICAL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0076]The organic EL device of the present invention uses the polyimide film having predetermined characteristics as the supporting base, and hence the organic EL device having the performance equivalent to that of...

Problems solved by technology

However, the resin is generally inferior to glass in dimension stability, transparency, heat resistance, moisture resistance, gas barrier property, and the like, and hence various studies of the resin have been conducted.
However there is a problem in that the polyimides obtained in the foregoing have a glass transition temperature of up to 337° C. according to Examples (Table 1), and hence cannot withstand a heat treatment temperature generally reaching about 400° C. during the annealing step of TFTs.
Therefore, in the case where a gas barrier layer is formed so as to impart gas barrier property to the polyimide as in Patent Literature 2 described later, peeling and cracks occur at an interface between the gas barrier layer and the polyimide, with the result that it is difficult to obtain an organic EL device excellent in shape stability.
However, there is a problem in that the flexible film made of PET, PEN, PC, PVC, or the like given as the supporting base in the foregoing does not have sufficient heat resistance and hence cannot withstand ...

Method used

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  • Display device, method for manufacturing same, polyimide film for display device supporting bases, and method for producing polyimide film for display device supporting bases
  • Display device, method for manufacturing same, polyimide film for display device supporting bases, and method for producing polyimide film for display device supporting bases
  • Display device, method for manufacturing same, polyimide film for display device supporting bases, and method for producing polyimide film for display device supporting bases

Examples

Experimental program
Comparison scheme
Effect test

example 1

(Polyimide A)

[0121]25.2 g of TFMB were dissolved in a solvent DMAc under stirring in a 200-ml separable flask in a nitrogen gas stream. Then, 14.5 g of PMDA and 5.2 g of 6FDA were added to the solution. Then, the solution was continuously stirred at room temperature for 5 hours so as to be subjected to a polymerization reaction, and the resultant was kept for a whole day and night. A viscous polyamide acid solution was obtained, and it was confirmed that polyamide acid A having a high polymerization degree was generated.

[0122]The polyamide acid solution was applied onto a copper foil (electrolytic copper foil “DFF” manufactured by Mitsui Mining & Smelting Co., Ltd.) having a thickness of 18 μm with an applicator so that the film thickness after heat treatment became about 25 μm, and the resultant was increased in temperature from 90° C. to 360° C. at a rate of 22° C. per minute in a nitrogen oven so as to obtain a laminate of the copper foil and the polyimide. The laminate was immer...

example 2

(Polyimide B)

[0123]25.7 g of TFMB serving as a diamine, 15.7 g of PMDA serving as an acid anhydride, and 3.6 g of 6 FDA were added by having stirred in a 200-ml separable flask in a nitrogen gas stream. Then, the solution was continuously stirred at room temperature for 5 hours so as to be subjected to a polymerization reaction, and the resultant was kept for a whole day and night. A viscous polyamide acid solution was obtained, and it was confirmed that polyamide acid B having a high polymerization degree was generated.

[0124]Film-shaped polyimide B was obtained in the same way as in Example 1 through use of the polyamide acid solution thus obtained.

example 3

(Polyimide C)

[0125]26. 3 g of TFMB were dissolved in a solvent DMAc under stirring in a 200-ml separable flask in a nitrogen gas stream. Then, 16.9 g of PMDA and 1.8 g of 6 FDA were added to the solution. Then, the solution was continuously stirred at room temperature for 5 hours so as to be subjected to a polymerization reaction, and the resultant was kept for a whole day and night. A viscous polyamide acid solution was obtained, and it was confirmed that polyamide acid C having a high polymerization degree was generated.

[0126]The polyamide acid solution was applied onto a copper foil (electrolytic copper foil “DFF” manufactured by Mitsui Mining & Smelting Co., Ltd.) having a thickness of 18 μm with an applicator so that the film thickness after heat treatment became about 25 μm, and the resultant was increased in temperature from 90° C. to 360 at a rate of 22° C. per minute in a hot air oven so as to obtain a laminate of the copper foil and the polyimide film. Next, a pressure-sen...

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Abstract

Provided is a display device that can be made thin, lightweight, and flexible, has no problems of cracks and peeling caused by thermal stress, and is excellent in dimension stability and the like. The display device includes: a supporting base including a polyimide film; and a gas barrier layer formed on the supporting base, in which the polyimide film has a transmittance of 80% or more in a wavelength region of from 440 nm to 780 nm, and a coefficient of thermal expansion of 15 ppm/K or less, and has a difference in coefficient of thermal expansion from the gas barrier layer of 10 ppm/K or less.

Description

TECHNICAL FIELD[0001]The present invention relates to a display device and a manufacturing method therefor, and to a polyimide film for a display device supporting base and a production method therefor. More specifically the present invention relates to a display device including a supporting base including a polyimide film and a gas barrier layer formed on the supporting base and a manufacturing method therefor, and to a polyimide film for a display device supporting base and a production method therefor.BACKGROUND ART[0002]An organic EL device to be used for various displays, for example, large-size displays such as a television and small-size displays such as a mobile phone, a personal computer, and a smartphone is generally manufactured by forming thin film transistors (hereinafter referred to as “TFTs”) on a glass substrate serving as a supporting base, successively forming an electrode, a light-emitting layer, and an electrode on the glass substrate having the TFTs formed ther...

Claims

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Application Information

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IPC IPC(8): C08G73/10H01L51/52H01L27/32H01L51/56B32B7/022B32B7/027
CPCC08G73/1067H01L51/56H01L51/5253H01L2251/558H01L2251/5315H01L2251/5307H01L27/322B32B27/281C08G73/1039C08G73/1042C08J5/18C09D179/08H05B33/04C08J2379/08B32B7/027B32B7/022H10K77/111H10K50/844H10K2102/3023H10K2102/3026H10K2102/311H10K2102/351Y02E10/549Y10T428/24355Y10T428/31721Y02P70/50H10K71/80B32B27/08B32B27/34G02B5/20G02F1/167B32B2307/51B32B2307/42B32B2307/7242B32B2457/20H10K85/111H10K85/151H10K2102/00H10K2102/3035H10K59/38H10K71/00
Inventor KATAYAMA, MASAKAZUHIRAISHI, KATSUFUMISUTO, YOSHIKIOKAZAKI, NATSUKOWANG, HONGYUAN
Owner NIPPON STEEL CHEMICAL CO LTD
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